User-friendly welding helmet assembly

ABSTRACT

User-friendly welding helmet assembly configurations to be worn on the head of a weldor are disclosed. The welding helmet assembly configurations include various advanced features including a spatter shield that is easily replaceable from an external front portion of a shell of the helmet assembly configuration, and an adjustable ratchet headgear within the shell having a repositionable lever adapted to easily adjust a detent position of the ratchet headgear with respect to the shell. Other user-friendly features are also provided, in accordance with various embodiments of the present invention.

TECHNICAL FIELD

Certain embodiments of the present invention relate to welding helmets.More particularly, certain embodiments of the present invention relateto re-configurable welding helmet assemblies with user-friendlyfeatures.

BACKGROUND OF THE INVENTION

A welding helmet is typically used during a welding process to helpprotect the weldor from various dangers such as sparks, heat, andflashes of light (e.g., visible light, ultraviolet light, and infraredlight). A typical welding helmet covers the front and/or sides of thehead of the weldor and includes a relatively transparent front portionto see through. The intense heat and brightness associated with weldingcan cause eye damage including, possibly, blindness. Therefore, a filterlens is typically used to filter out harmful light and heat.

A spatter shield on the front of the welding helmet helps protect theweldor as well as the filter from flying sparks and other debris thatmay fly towards the helmet during a welding operation. The spattershield frequently becomes scratched or damaged and must be replaced soas not to hinder the view of the weldor. Gaining access to the spattershield is often difficult and time-consuming, requiring other elements(such as a filter) to be removed in order to remove the spatter shield.Many times the spatter shield has to be removed from the interior of thehelmet shell, which can be difficult, especially if the user (i.e.,weldor) has large hands and fingers.

Being able to adjust the helmet to tilt at a proper angle with respectto the weldor's head and eyes is often difficult to accomplish. Theweldor may have to remove the helmet, adjust it, and try it on again tosee if the adjustment is correct. The weldor may have to repeat thisprocess several times before the angle of the helmet is adjusted to adesirable position. Also, adjusting controls on an automatic darkeningfilter (ADF) shade cartridge, which is being used as the filter, may bedifficult and time consuming, requiring various elements of the helmetto be dis-assembled to get at the controls, and then re-assembled oncethe controls are adjusted. This process may have to be repeated severaltimes as well, until the weldor gets the adjustments just right.

For certain applications, a weldor may want to use one type of helmetconfiguration and, for certain other applications, a weldor may want touse a slightly different type of helmet configuration. Suchcircumstances typically require the weldor to have two or more separatehelmets that he can switch between. Each helmet may require a unique setof elements such as filters, lenses, cover plates, and shields. Also,each helmet has to be adjusted to a fit of the weldor and to otherpreferences of the weldor for a particular application.

In general, many welding helmets today are not very user-friendly andrequire a user to spend a significant amount of time making adjustmentsand replacing various elements.

Further limitations and disadvantages of conventional, traditional, andproposed approaches will become apparent to one of skill in the art,through comparison of such systems and methods with the presentinvention as set forth in the remainder of the present application withreference to the drawings.

BRIEF SUMMARY OF THE INVENTION

A first embodiment of the present invention comprises a re-configurablewelding helmet assembly to be worn on the head of a weldor. There-configurable welding helmet assembly includes a common shell having afirst open window at a front portion of the common shell. The commonshell is adaptable to at least two different welding helmetconfigurations. The welding helmet assembly further includes an interiorlens and an interior retaining mechanism to retain the interior lensover the first open window. The welding helmet assembly further includesa front bezel having a second open window and being adapted to easilyattach to and detach from an exterior front portion of the common shellsuch that the second open window aligns substantially with the firstopen window when the front bezel is attached to the common shell. Thewelding helmet assembly also includes a spatter shield positionedexternally to the common shell proximate the front portion of the commonshell by, at least in part, the front bezel such that the spatter shieldis easily accessible from the external front portion of the common shellfor replacement.

A second embodiment of the present invention comprises a welding helmetassembly to be worn on the head of a weldor. The welding helmet assemblyincludes a shell having a first open window at a front portion of theshell. The welding helmet assembly further includes a bezel adapterhaving a second open window and being adapted to easily attach to anddetach from an exterior front portion of the shell such that the secondopen window aligns substantially with the first open window when thebezel adapter is attached to the shell. The welding helmet assembly alsoincludes a filter lens adapted to fit securely between the first openwindow of the shell and the second open window of the bezel adapter whenthe bezel adapter is attached to the shell. The welding helmet assemblyfurther includes a bezel having a third open window and being adapted toeasily attach to and detach from the exterior front portion of the shellover the bezel adapter such that the third open window alignssubstantially with the second open window and the first open window whenthe bezel adapter and the bezel are attached to the shell. The weldinghelmet assembly also includes a spatter shield adapted to fit securelybetween the second open window of the bezel adapter and the third openwindow of the bezel when the bezel adapter and the bezel are attached tothe shell such that the spatter shield is easily accessible from theexterior front portion of the shell for replacement. The welding helmetassembly further includes a clear cover plate adapted to slide upwardinto an interior front portion of the shell to cover the first openwindow behind the filter lens.

Another embodiment of the present invention comprises a welding helmetassembly to be worn on the head of a weldor. The welding helmet assemblyincludes a means for retaining at least one lens at a front portion of ashell of the welding helmet assembly to cover an open window of theshell. The welding helmet assembly further includes a means forretaining a spatter shield at an external front portion of the shellsuch that the spatter shield is in substantial alignment with the openwindow. The welding helmet assembly also includes a means for easilyaccessing the spatter shield for replacement at the external frontportion of the shell without having to remove the at least one lens fromthe shell. The welding helmet assembly further includes a means toadjust a detent position, with respect to the shell, of an adjustableheadgear mounted within the shell. The detent position determines acentering of the shell with respect to the headgear by defining how farupward and how far downward the shell can tilt with respect to areference plane through the headgear.

These and other advantages and novel features of the present invention,as well as details of illustrated embodiments thereof, will be morefully understood from the following description and drawings.

BRIEF DESCRIPTION OF SEVERAL VIEWS OF THE DRAWINGS

FIG. 1 is an exemplary illustration of an exploded view of a firstembodiment of a welding helmet assembly corresponding to a firstconfiguration using a common shell, in accordance with various aspectsof the present invention.

FIG. 2 is an exemplary illustration of an exploded view of a secondembodiment of a welding helmet assembly corresponding to a secondconfiguration using the common shell of FIG. 1, in accordance withvarious aspects of the present invention.

FIG. 3 is an exemplary illustration of an external perspective view ofthe fully assembled welding helmet assembly embodiments of FIG. 1 andFIG. 2, in accordance with various aspects of the present invention.

FIG. 4 is an exemplary illustration of an exploded view of a thirdembodiment of a welding helmet assembly corresponding to a thirdconfiguration using the common shell of FIG. 1, in accordance withvarious aspects of the present invention.

FIG. 5 is an exemplary illustration of an external perspective view ofthe fully assembled welding helmet assembly embodiment of FIG. 4, inaccordance with various aspects of the present invention.

FIG. 6 is an exemplary illustration of an exploded view of a fourthembodiment of a welding helmet assembly using a different shell fromthat of the embodiments of FIGS. 1-5, in accordance with various aspectsof the present invention.

FIG. 7 is an exemplary illustration of a perspective view of the fullyassembled welding helmet assembly of FIG. 6, in accordance with variousaspects of the present invention.

FIGS. 8A-8C illustrate three exemplary embodiments of auto darkeningshade cartridges, having a common set of controls and different windowsizes, that may be used in the welding helmet assembly of FIGS. 6-7, inaccordance with various aspects of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 is an exemplary illustration of an exploded view of a firstembodiment of a welding helmet assembly 100 corresponding to a firstconfiguration using a common shell 110, in accordance with variousaspects of the present invention. The common shell 110 may be used inseveral different welding helmet configurations, as will be describedherein. A front portion of the shell 110 includes an open window 111which defines a maximum viewing window for a weldor using the helmetassembly 100. The first open window 111 has dimensions of 2 inches by 4inches, in accordance with an embodiment of the present invention. Otherwindow dimensions are possible as well such as, for example, a 90 mm×10mm window size which is standard in Europe.

An interior lens comprising a fixed filter lens 120 is adapted to coverthe open window 111 at an interior front portion of the shell 110. Thefixed filter lens 120 may be any type of fixed filter lens known in theart serving the purpose of protecting a weldor's eyes from the glare ofa welding arc while using the welding helmet configuration 100 during awelding process. An interior retaining frame 121 is adapted to helpretain the fixed filter lens at the interior front portion of the shell110 over the open window 111. A de-latchable interior retaining clip 122is adapted to secure the fixed filter lens 120 and the interiorretaining frame 121 in place at the interior front portion of the commonshell 110 over the first open window 111. The interior retaining frame121 and the interior retaining clip 122 constitute an interior retainingmechanism, in accordance with an embodiment of the present invention.Other interior retaining mechanisms are possible as well, in accordancewith various alternative embodiments of the present invention.

A front bezel 130 having a second open window 131 is adapted to easilyattach to and detach from an exterior front portion of the common shell110. The second open window 131 aligns substantially with the first openwindow 111 when the front bezel 130 is attached to the common shell 110at the exterior front portion of the common shell 110. The front bezel130 includes plastic tabs 132 around the front bezel 130 that snap intoopenings in the common shell 110.

In accordance with an embodiment of the present invention, a spattershield 140 is held in position between the first open window 111 of thecommon shell 110 and the second open window 131 of the front bezel 130when the front bezel 130 is attached to the common shell 110. Thespatter shield 140 helps protect the eyes of the weldor and the lens (orADF) and is easily accessible from the external front portion of thecommon shell 110 for replacement by detaching the front bezel 130 fromthe common shell 110. When the spatter shield becomes scratched orspattered during a welding process, replacement of the spatter shield isaccomplished without having to remove any filter lens (e.g., fixedfilter lens 120) from the welding helmet assembly 100.

In order to properly fit a head of a weldor to the welding helmetassembly 100, an adjustable ratchet headgear 150 is mounted within aninterior of the common shell 110 via headgear mounting hardware 151, 152and 153. The ratchet headgear 150 allows the common shell 110 to tiltupward and downward with respect to the ratchet headgear 150. Arepositionable lever 160 attaches to one side of the ratchet headgear150 and is adapted to adjust a detent position of the ratchet headgear150 with respect to the common shell 110. The detent position determinesa centering of the common shell 110 with respect to the ratchet headgear150 by defining how far up and how far down the common shell may tiltabout an imaginary axis 170 with respect to an imaginary reference plane(e.g., 180) through the ratchet headgear 150. The ratchet headgear 150includes a ratchet knob 155 at the back of the headgear 150 foradjusting a fit of the headgear 150 to a weldor's head. The knob 155 issimply pushed inward and rotated left or right to adjust the fit.

The repositionable lever 160 may be locked into any one of a pluralityof detent positions via a tab 161 on the lever 160 that fits into one ofa plurality of visible ridges or notches 115 on a side edge of thecommon shell 110 (shown on a side of the shell 110 opposite that of thelever 160 in FIG. 1 simply for illustrative purposes). Each visibleridge of the plurality of visible ridges 115 corresponds to andidentifies a different locked detent position of the plurality ofpossible detent positions.

In accordance with an embodiment of the present invention, the headgearmounting hardware includes a pair of mounting bolts 151, a pair ofmounting washers 152, and a pair of mounting nuts 153, one of each pairmounted on opposite sides of the shell 110. The bolts 151 pass throughholes in the common shell 100 to connect the headgear 150 to the shell110 via the nuts 153 and washers 152. The mounting washers 152 areadapted to provide frictional force between the common shell 110 and theratchet headgear 150. In accordance with an embodiment of the presentinvention, there are raised patterns adjacent where the mounting washerssit that help provide the frictional force as the washers fit againstthe raised patterns. The amount of frictional force may be adjusted bythe pair of mounting nuts 153 to set a speed of tilt of the common shell110 with respect to the headgear 150.

The ratchet headgear 150 is totally adjustable for fit, speed of tilt,and detent tilt position while the weldor is wearing the welding helmetassembly 100. As a result, the weldor can immediately determine if theadjustments are satisfactory without having to remove the helmet.

As an option, a sweatband 190 may be provided which removably attachesto a front portion of the ratchet headgear 150 such that the sweatband190 touches and spans a forehead of a weldor when the welding helmetassembly 100 is properly fitted to and worn by a weldor. In accordancewith an embodiment of the present invention, the sweatband 190 includesa slot 191 spanning a front portion of the sweatband 190 which may beopened and then closed to attach the sweatband 190 to the headgear 150.

FIG. 2 is an exemplary illustration of an exploded view of a secondembodiment of a welding helmet assembly 200 corresponding to a secondconfiguration using the common shell 110 of FIG. 1, in accordance withvarious aspects of the present invention. The welding helmet assembly200 is the same as the welding helmet assembly 100 of FIG. 1 exceptthat, instead of a fixed filter lens 120, the welding helmet assembly200 includes an auto darkening filter (ADF) shade cartridge 220. Such anADF shade cartridge 220 functions to protect the eyes of a weldor, in amore sophisticated manner than a simple fixed filter lens, byautomatically sensing incident light and enabling at least one darkstate of the filter when the intensity of the incident light is highenough. Otherwise, the state of the filter is relatively clear. The ADFshade cartridge 220 may have several intermediate darkening states wherethe darkening state that is enabled depends on the sensed intensity ofthe incident light. The ADF shade cartridge 220 is held in place overthe window 111 at a front interior portion of the common shell 110 bythe retaining frame 121 and retaining clip 122, similar to thatpreviously described for the fixed filter lens 120.

FIG. 3 is an exemplary illustration of an external perspective view ofthe fully assembled welding helmet assembly embodiments 100 and 200 ofFIG. 1 and FIG. 2, in accordance with various aspects of the presentinvention. In the perspective view, the common shell 110, the frontbezel 130, the window 131, and the mounting nut 152 are clearly seen.

FIG. 4 is an exemplary illustration of an exploded view of a thirdembodiment of a welding helmet assembly 400 corresponding to a thirdconfiguration using the common shell 110 of FIG. 1, in accordance withvarious aspects of the present invention. As described previously, afront portion of the shell 110 includes an open window 111 which definesa maximum viewing window for a weldor using the helmet assembly 400.

An interior lens comprising a clear plastic lens 420 is adapted to coverthe open window 111 at an interior front portion of the shell 110. Aninterior retaining frame 121 is adapted to help retain the clear plasticlens 420 at the interior front portion of the shell 110 over the openwindow 111. A de-latchable interior retaining clip 122 is adapted tosecure the clear plastic lens 420 and the interior retaining frame 121in place at the interior front portion of the common shell 110 over thefirst open window 111. The interior retaining frame 121 and the interiorretaining clip 122 constitute an interior retaining mechanism, inaccordance with an embodiment of the present invention. Other interiorretaining mechanisms are possible as well, in accordance with variousalternative embodiments of the present invention. In the configurationof FIG. 4, any filter lens is external to the common shell 110 as willbe described herein.

A front bezel 430 having a second open window 431 is adapted to easilyattach to and detach from an exterior front portion of the common shell110. The second open window 431 aligns substantially with the first openwindow 111 when the front bezel 430 is attached to the common shell 110at the exterior front portion of the common shell 110. In accordancewith an embodiment of the present invention, the front bezel 430includes tabs 435 that snap into openings in the common shell 110.

The front bezel 430 snaps onto the common shell 110 in the same mannerthat the front bezel 130 of FIG. 1 snaps onto the common shell 110.However, the front bezel 430 is different from the front bezel 130 ofFIG. 1 in that the front bezel 430 is adapted to accept a lift mechanismsuch as, for example, a pivot pin 434 and a lift spring 432, whichenables a flip bezel 440 to connect to the front bezel 430. The flipbezel 440 includes a third open window 441. The flip bezel 440 isadapted to attach to the front bezel 430 via the pivot pin 434 and liftspring 432 at a top portion of the flip bezel 440 such that the flipbezel 440 is capable of being flipped upward and downward, with respectto the front bezel 430, about an imaginary pivot axis 433 through atop/front portion of the front bezel 430. Other flip mechanisms may beemployed which perform the same function as the pivot pin 434 and liftspring 432, in accordance with various alternative embodiments of thepresent invention.

When the flip bezel 440 is flipped downward, the third open window 441of the flip bezel 440 aligns substantially with the second open window431 of the front bezel 430 and the first open window 111 of the commonshell 110. The lift spring 432 provides tension between the front bezel430 and the flip bezel 440 to keep the flip bezel 440 in the up or downposition, until moved by a user of the helmet assembly 400.

A spatter shield 450 is adapted to cover the open window 441 at aninside portion of the flip bezel 440. A forward filter lens 460 ispositioned directly behind the spatter shield 450 away from the thirdopen window 441. The forward filter lens 460 may comprise a fixed filterlens or an ADF shading cartridge, in accordance with various embodimentsof the present invention. A clear cover plate 470 is positioned directlybehind the forward filter lens 460 away from the third open window. Ade-latchable forward retaining clip 480 is adapted to secure the clearcover plate 470, the forward filter lens 460, and the spatter shield 450in a sandwiched configuration at an inside portion of the flip bezel 440to cover the third open window 441. The spatter shield 450 protects theforward filter lens 460 from the front, and the clear cover plate 470protects the forward filter lens 460 from the rear. The spatter shield450 may be easily accessed for replacement by flipping upward the flipbezel 440 and de-latching the forward retaining clip 480 to remove thesandwiched configuration of the clear cover plate 470, the forwardfilter lens 460, and the spatter shield 450.

Certain other elements of the welding helmet assembly 400 are the sameas, and have the same function as, those corresponding elements of thewelding helmet assembly 100 of FIG. 1 and FIG. 2, including the ratchetheadgear 150, the repositionable lever 160, the headgear mountinghardware 151-153, and the sweatband 190 as previously described herein.

FIG. 5 is an exemplary illustration of an external perspective view ofthe fully assembled welding helmet assembly embodiment 400 of FIG. 4, inaccordance with various aspects of the present invention. In theperspective view, the common shell 110, the front bezel 430, the flipbezel 440, the window 441, and the mounting nut 153 are clearly seen.

The resultant configuration of FIGS. 4-5 allow a weldor to flip thebezel 440, having the filter lens 460 mounted to it, upward and downwardas the weldor sees fit during a welding process. When the flip bezel 440is flipped downward, the filter lens 460 is in place to protect theweldor's eyes. When the flip bezel 440 is flipped upward, the lens isremoved from the weldor's view and the weldor can see clearly throughthe helmet assembly. In the configurations of FIGS. 1-3, the filter lensis instead mounted at an interior front portion of the common shell 110.However, in all of the configurations of FIGS. 1-5, the spatter shieldis accessible for replacement, exterior to the common shell 110 at afront portion of the common shell 110.

FIG. 6 is an exemplary illustration of an exploded view of a fourthembodiment of a welding helmet assembly 600 using a different shell 610from that of the embodiments of FIGS. 1-5, in accordance with variousaspects of the present invention. The shell 610 of the welding helmetassembly 600 includes a first open window 611 at a front portion of theshell 610. The first open window 611 has dimensions of 4 inches by 5inches, in accordance with an embodiment of the present invention. Otherwindow dimensions are possible as well.

The welding helmet assembly 600 also includes a bezel adapter 620 havinga second open window 621. The bezel adapter 620 is adapted to easilyattach to and detach from an exterior front portion of the shell 610such that the second open window 621 aligns substantially with the firstopen window 611 when the bezel adapter 620 is attached to the shell 610.The bezel adapter 620 includes plastic tabs 622 around the bezel adapter620 that snap into openings in the shell 610, in accordance with anembodiment of the present invention.

The welding helmet assembly 600 further includes a filter lens 630adapted to fit securely between the first open window 611 of the shell610 and the second open window 621 of the bezel adapter 620 when thebezel adapter 620 is attached to the shell 610. The filter lens 630 maycomprise a fixed filter lens or an ADF shading cartridge, in accordancewith various embodiments of the present invention. In accordance with anembodiment of the present invention, spring fingers around the secondwindow 621 of the bezel adapter 620 help to secure the filter lens 630against tabs around the first open window 611 of the shell 610.

The welding helmet assembly 600 also includes a bezel 640 having a thirdopen window 641 and being adapted to easily attach to and de-tach fromthe exterior front portion of the shell 610 over the bezel adapter 620.The third open window 641 aligns substantially with the second openwindow 621 and the first open window 611 when the bezel adapter 620 andthe bezel 640 are attached to the shell 610. The bezel 640 includesplastic tabs 642 around the bezel 640 that snap into openings in theshell 610, in accordance with an embodiment of the present invention.

The welding helmet assembly 600 further includes a spatter shield 650adapted to fit securely between the second open window 621 of the bezeladapter 620 and the third open window 641 of the bezel 640 when thebezel adapter 620 and the bezel 640 are attached to the shell 610. As aresult, the spatter shield 650 is easily accessible from the exteriorfront portion of the shell 610 for replacement simply by de-taching thebezel 640 from the shell 610.

A clear cover plate 660 is adapted to slide upward into an interiorfront portion of the shell 610 to cover the first open window 611 behindthe filter lens 630 to help protect the filter lens 630. Also, as anoption, an adjustable cheater plate 670 is adapted to slide upward intothe interior front portion of the shell 610 behind the clear cover plate660. A position of the cheater plate 670 is adjustable, independent ofthe clear cover plate 660, to an eye level of a weldor using the weldinghelmet assembly 600. The cheater plate 670 allows a weldor to not haveto use eye glasses while wearing the welding helmet assembly 600. Inaccordance with an embodiment of the present invention, the cheaterplate 670 is a bi-focal corrective lens that serves to correct the lessthan perfect vision of the weldor.

In accordance with an embodiment of the present invention, the clearcover plate 660 is slidably held in position over the first window 611by a plurality of tabs on the shell 610 surrounding the first window 611at an interior portion of the shell 610. The clear cover plate 660 maybe removed from the shell 610 by sliding the clear cover plate 660downward past the tabs, whether or not the cheater plate 670 isinstalled in the shell 610. Also, the adjustable cheater plate 670 isslidably held in position by a plurality of tabs on the shellsurrounding the first window. Means, other than tabs, may also be usedto allow sliding and holding of the clear cover plate 660 and thecheater plate 670, in accordance with various alternative embodiments ofthe present invention.

The welding helmet assembly 600 also includes a ratchet headgear 680with a repositionable lever 685, a ratchet knob 686, mounting hardware691-693 and, optionally, a sweatband 687 functioning the same as thecorresponding elements of FIG. 1, for example, as described previouslyherein.

FIG. 7 is an exemplary illustration of a perspective view of the fullyassembled welding helmet assembly 600 of FIG. 6, in accordance withvarious aspects of the present invention. In the perspective view, theshell 610, the bezel 640, the window 641, and the mounting nut 693 areclearly seen. The bezel adapter 620 is covered and hidden by the bezel640.

In accordance with an embodiment of the present invention, when thefilter lens 630 is an ADF shade cartridge, the clear cover plate 660 maybe slid further upward to expose a set of common controls on a lowerportion of the shade cartridge 630, whether or not the adjustablecheater plate 670 is installed. As a result, a weldor can easily accessthe set of common controls of the ADF shade cartridge 630 to control theresultant operation of the ADF shade cartridge 630 without having tototally remove the clear cover plate 660.

Whether the filter lens 630 is a fixed filter lens or an ADF shadecartridge, the filter lens 630 may include a filter window having one ofat least three possible sizes where each next window size is larger inheight than a previous window size (e.g., offering selections of “good”,“better”, and “best” window sizes). FIGS. 8A-8C illustrate threeexemplary embodiments of auto darkening shade cartridges, having acommon set of controls 810 and different window sizes 820, 830, and 840which may be used in the welding helmet assembly 600 of FIGS. 6-7, inaccordance with various aspects of the present invention.

In accordance with an embodiment of the present invention, the set ofcommon controls 810 include a subset of shade controls 811, a subset ofsensitivity controls 812, and a subset of delay/grind controls 813,which are well known in the art. Other combinations of controls arepossible as well, in accordance with various alternative embodiments ofthe present invention. Again, the clear cover plate 660 may be slidupward far enough, from its normal position covering the first openwindow 611, such that the set of common controls 810 become accessible.In this way, a weldor can easily adjust the controls 810 without havingto remove any elements from the welding helmet assembly 600. After theadjustments to the controls are made, the clear cover plate 660 issimply slid back downward into position over the window 611 to cover thecontrols 810.

In summary, welding helmet assemblies are disclosed having variousadjustable and re-configurable features that allow the helmet assembliesto be very user-friendly. The spatter shield associated with any weldinghelmet assembly configuration disclosed herein is easily accessible andremovable from a front portion of the helmet assemblies, without havingto remove any filter lens for some embodiments. Also, the welding helmetassemblies disclosed herein each include a repositionable lever whichallows a detent position of the helmet to be easily adjusted.

While the invention has been described with reference to certainembodiments, it will be understood by those skilled in the art thatvarious changes may be made and equivalents may be substituted withoutdeparting from the scope of the invention. In addition, manymodifications may be made to adapt a particular situation or material tothe teachings of the invention without departing from its scope.Therefore, it is intended that the invention not be limited to theparticular embodiment disclosed, but that the invention will include allembodiments falling within the scope of the appended claims.

What is claimed is:
 1. A re-configurable welding helmet system to beworn on a head of a weldor, said re-configurable welding helmet assemblycomprising: a common shell having a first open window at a front portionof said common shell and one or more openings on an exterior frontportion of said common shell; a first front bezel having a first set oftabs and being attachable to said common shell via said one or moreopenings and said first set of tabs, said first front bezel furtherhaving a second open window substantially aligned with said first openwindow when attached; a second front bezel having a second set of tabsand being attachable to said common shell via said one or more openingsand said second set of tabs, said second front bezel further having athird open window substantially aligned with said first open window whenattached and a flip bezel, attached to said second front bezel, having afourth open window, said flip bezel configured to flip upward anddownward with respect to said second front bezel about a pivot axis at atop, front portion of said second front bezel; an interior lens adaptedto cover said first open window at an interior front portion of saidcommon shell, wherein said interior lens is removable from an interiorof said common shell; an interior retaining mechanism adapted to retainsaid interior lens over said first open window in a sandwichedconfiguration; and a spatter shield positioned externally to said commonshell proximate to said front portion of said common shell by, at leastin part, one of said first or second front bezels, such that saidspatter shield is easily accessible from said external front portion ofsaid common shell for replacement.
 2. The re-configurable welding helmetsystem of claim 1 wherein said interior retaining mechanism comprises:an interior retaining frame adapted to help retain said interior lens atsaid interior front portion of said common shell over said first openwindow; and a de-latchable interior retaining clip adapted to securesaid interior lens and said interior retaining frame in place at saidinterior front portion of said common shell over said first open window.3. The re-configurable welding helmet system of claim 1 wherein saidinterior lens comprises one of a clear plastic lens, a fixed filterlens, and an automatic darkening filter shade cartridge.
 4. There-configurable welding helmet assembly of claim 1 wherein said spattershield is held in position between said first open window of said commonshell and said second open window of said front bezel when said frontbezel is attached to said common shell, and wherein said spatter shieldis easily accessible from said external front portion of said commonshell for replacement by detaching said front bezel from said commonshell and without having to remove any filter lens from said weldinghelmet assembly.
 5. The re-configurable welding helmet system of claim 1wherein said flip bezel is configured to attach to said second frontbezel via a pivot pin and a lift spring attachably mounted between saidflip bezel and said second front bezel at said top, front portion ofsaid second front bezel.
 6. The re-configurable welding helmet system ofclaim 1 wherein said spatter shield is positioned at an inside portionof said flip bezel to cover said fourth open window of said flip bezel.7. The re-configurable welding helmet system of claim 6 furthercomprising a forward filter lens positioned directly behind said spattershield away from said fourth open window.
 8. The re-configurable weldinghelmet system of claim 7 wherein said forward filter lens comprises oneof a fixed filter lens and an automatic darkening filter shadecartridge.
 9. The re-configurable welding helmet system of claim 7further comprising a clear cover plate positioned directly behind saidforward filter lens away from said fourth open window.
 10. There-configurable welding helmet system of claim 9 further comprising ade-latchable forward retaining clip adapted to secure said clear coverplate, said forward filter lens, and said splatter shield in asandwiched configuration at an inside portion of said flip bezel tocover said fourth open window of said flip bezel.
 11. There-configurable welding helmet system of claim 1 further comprising anadjustable ratchet headgear adjustably mounted within an interior ofsaid common shell, via headgear mounting hardware, to fit a head of aweldor and to allow said common shell to tilt upward and downward withrespect to said ratchet headgear.
 12. The re-configurable welding helmetsystem of claim 11 further comprising a repositionable lever adjustablyattached to one side of said ratchet headgear and adapted to adjust adetent position of said ratchet headgear with respect to said commonshell, wherein said detent position determines a centering of saidcommon shell with respect to said ratchet headgear by defining how farupward and how far downward said common shell can tilt with respect to areference plane through said ratchet headgear.
 13. The re-configurablewelding helmet system of claim 12 wherein said repositionable lever maybe locked into one of a plurality of detent positions via a tab on saidadjustment lever that fits into one of a plurality of visible ridges ona side edge of said common shell, and wherein each visible ridge of saidplurality of visible ridges corresponds to and identifies a differentlocked detent position of said plurality of detent positions.
 14. There-configurable welding helmet system of claim 11 wherein said headgearmounting hardware includes at least two washers, one mounted on eachside of said common shell, adapted to provide friction between saidcommon shell and said ratchet headgear to set a speed of tilt.
 15. There-configurable welding helmet system of claim 11 further comprising asweatband removably attached to a front portion of said ratchet headgearsuch that said sweatband touches and spans a forehead of a weldor whensaid re-configurable welding helmet is properly fitted to and worn bysaid weldor.
 16. A welding helmet assembly to be worn on a head of aweldor, said welding helmet assembly comprising: means for removablyretaining at least one lens at an interior front portion of a shell ofsaid welding helmet assembly to cover an open window of said shell;means for retaining a spatter shield at an external front portion ofsaid shell using, at least in part, a front bezel such that said spattershield is in substantial alignment with said open window; means foreasily accessing said spatter shield for replacement at said externalfront portion of said shell without having to remove said at least onelens from said shell; and means for adjusting between a plurality ofdetent positions of an adjustable headgear mounted within said shell,wherein a detent position of said plurality of detent positionsdetermines a centering of said shell with respect to said headgear bydefining how far upward and how far downward said shell can tilt withrespect to a reference plane through said headgear, and wherein saidmeans for adjusting may be locked into one of said plurality of detentpositions via a tab that fits into one of a plurality of visible ridgeson a side edge of said shell, wherein each visible ridge of saidplurality of visible ridges corresponds to and identifies a differentlocked detent position of said plurality of detent positions.
 17. Thewelding helmet assembly of claim 16 wherein said at least one lenscomprises at least one of a clear plastic lens, a fixed filter lens, andan automatic darkening filter shade cartridge.
 18. A re-configurablewelding helmet assembly to be worn on a head of a weldor, saidre-configurable welding helmet assembly comprising: a common shelladapatable between at least two different welding helmet configurations;an adjustable ratchet headgear adjustably mounted within an interior ofsaid common shell to fit a head of a weldor and to allow said commonshell to tilt upward and downward with respect to said ratchet headgear;and a repositionable lever adjustably attached to one side of saidratchet headgear and adapted to adjust a detent position of said ratchetheadgear with respect to said common shell, wherein said detent positiondetermines a centering of said common shell with respect to said ratchetheadgear, and wherein said repositionable lever is capable of beinglocked into one of a plurality of detent positions via a tab on saidadjustment lever that fits into one of a plurality of visible ridges ona side edge of said common shell, and wherein each visible ridge of saidplurality of visible ridges corresponds to and identifies a differentlocked detent position of said plurality of detent positions.